DAFTAR PUSTAKA LAMPIRAN
DAFTAR PUSTAKA
[1]
http://www.klikunic.com/2010/04/kereta-api-bergigi-hanya-di-indonesia.html
&
http://yefrichan.wordpress.com/category/elemen-mesin/page/5.html (28 Oktober
2011).
[2]
Jamari, J. (2006). Running-in of Rolling Contacts. PhD Thesis, University of
Twente, Zutphen, The Netherlands.
[3]
Almen, J.O. (1950). in Mechanical Wear (ed J.T. Burwell), American Society for
Metals, pp. 229–288.
[4]
Glossary of terms and definitions in the field of friction, wear and lubrication,
Research Group on Wear of Engineering Materials, Organisation for Economic
Co-operation and Development, (1969). Reprinted in Wear Control Handbook
(eds M.B. Peterson and W.O. Winer), American Society of Mechanical Engineers,
1980, pp. 1143–1303.
[5]
Zum Gahr, K.H. (1987). „Microstructure and Wear of Materials’, Tribology
Series, Elsevier, Amsterdam, pp. 132–148.
[6]
Hokkirigawa, K. and Kato, K. (1989). „Theoretical Estimation of Abrasive Wear
Resistance Based on Microscopic Wear Mechanism‟, Wear of Materials (ed K.C.
Ludema), ASME, New York, pp. 1–8.
[7]
Stachowiak, G.W. (2005). Wear–Materials, Mechanisms And Practice.
John
Wiley & Sons, Ltd., West Sussex, England.
[8]
Buckley, D.H. (1981). Surface effects in adhesion, friction, wear and lubrication.
Elsevier, Amsterdam.
[9]
Kimura, Y. (1983). Mechanisms of wear–the Present State of Our Understanding,
Transactions JSLE, Vol.28, pp. 709-714.
[10] Blau, P. J. (2001). The significance and the use of friction coefficient. Tribology
International, 34, 585-591.
[11] Liu, R. & Li, D. Y. (2001). Modification of archard's equation by taking account
of elastic/pseudoelastic properties of materials. Wear, 251, 956-964.
[12] http://redyfirmansyah.blogspot.com [20 Oktober 2011].
74
75
[13] Stolarski, TA, Tobe, S, “Rolling Contacts”, Professional Engineering Publishing
Limited London and Bury St. Edmunds, UK (2000).
[14] Anderson, S. (2006) Wear Simulation. Royal Institute of Technology (KTH),
Stockholm, Sweden.
[15] Archard, J. F. (1953). Contact and rubbing of flat surfaces. J. Appl. Phys., 24,
981-988.
[16] Holm R. (1946). Electric contacts. Uppsala: Almqvist and Wiksells Boktryckeri
AB.
[17] Sarkar, A. D. (1980). Friction and wear. Academic Press, London.
[18] Podra, P. & Andersson, S. (1999). Simulating sliding wear with finite element
method. Tribol. Int., 32, 71-81.
[19] Hegadekatte, V, dkk. (2008). A predictive modeling scheme for wear in
tribometers. Elsevier. Amsterdam.
[20] Kanavalli, B. (2006). “Aplication of User Defined Subroutine UMESMOTION in
ABAQUS for Simulating Dry Rolling/Sliding Wear”, PhD Thesis, Royal Institute
of Technology (KTH)
[21] Abascal, R., Rodríguez- Tembleque, L. (2010). A boundary element formulation
for wear modeling on 3D contact and rolling-contact problems. Elsevier,
Amsterdam.
[22] http://atlas.cc.itu.edu.tr/mecit/um508e/Liu-pdf. (28 September 2011).
[23] Sonief, A.A. (2003). Diktat Metode Elemen Hingga. Fakultas Teknik-Jurusan
Teknik Mesin Universitas Brawijaya, Malang.
[24] ABAQUS. (2004). V 6.5-1. Hibbit, Karlsson and Sorensen Inc., Providence, RI,
USA.
76
LAMPIRAN
Journal International berjudul A predictive modeling scheme for wear in
tribometers, oleh V.Hegadekatte, S. Kurzenhauser, N Huber dan O. Kraft.
[1]
http://www.klikunic.com/2010/04/kereta-api-bergigi-hanya-di-indonesia.html
&
http://yefrichan.wordpress.com/category/elemen-mesin/page/5.html (28 Oktober
2011).
[2]
Jamari, J. (2006). Running-in of Rolling Contacts. PhD Thesis, University of
Twente, Zutphen, The Netherlands.
[3]
Almen, J.O. (1950). in Mechanical Wear (ed J.T. Burwell), American Society for
Metals, pp. 229–288.
[4]
Glossary of terms and definitions in the field of friction, wear and lubrication,
Research Group on Wear of Engineering Materials, Organisation for Economic
Co-operation and Development, (1969). Reprinted in Wear Control Handbook
(eds M.B. Peterson and W.O. Winer), American Society of Mechanical Engineers,
1980, pp. 1143–1303.
[5]
Zum Gahr, K.H. (1987). „Microstructure and Wear of Materials’, Tribology
Series, Elsevier, Amsterdam, pp. 132–148.
[6]
Hokkirigawa, K. and Kato, K. (1989). „Theoretical Estimation of Abrasive Wear
Resistance Based on Microscopic Wear Mechanism‟, Wear of Materials (ed K.C.
Ludema), ASME, New York, pp. 1–8.
[7]
Stachowiak, G.W. (2005). Wear–Materials, Mechanisms And Practice.
John
Wiley & Sons, Ltd., West Sussex, England.
[8]
Buckley, D.H. (1981). Surface effects in adhesion, friction, wear and lubrication.
Elsevier, Amsterdam.
[9]
Kimura, Y. (1983). Mechanisms of wear–the Present State of Our Understanding,
Transactions JSLE, Vol.28, pp. 709-714.
[10] Blau, P. J. (2001). The significance and the use of friction coefficient. Tribology
International, 34, 585-591.
[11] Liu, R. & Li, D. Y. (2001). Modification of archard's equation by taking account
of elastic/pseudoelastic properties of materials. Wear, 251, 956-964.
[12] http://redyfirmansyah.blogspot.com [20 Oktober 2011].
74
75
[13] Stolarski, TA, Tobe, S, “Rolling Contacts”, Professional Engineering Publishing
Limited London and Bury St. Edmunds, UK (2000).
[14] Anderson, S. (2006) Wear Simulation. Royal Institute of Technology (KTH),
Stockholm, Sweden.
[15] Archard, J. F. (1953). Contact and rubbing of flat surfaces. J. Appl. Phys., 24,
981-988.
[16] Holm R. (1946). Electric contacts. Uppsala: Almqvist and Wiksells Boktryckeri
AB.
[17] Sarkar, A. D. (1980). Friction and wear. Academic Press, London.
[18] Podra, P. & Andersson, S. (1999). Simulating sliding wear with finite element
method. Tribol. Int., 32, 71-81.
[19] Hegadekatte, V, dkk. (2008). A predictive modeling scheme for wear in
tribometers. Elsevier. Amsterdam.
[20] Kanavalli, B. (2006). “Aplication of User Defined Subroutine UMESMOTION in
ABAQUS for Simulating Dry Rolling/Sliding Wear”, PhD Thesis, Royal Institute
of Technology (KTH)
[21] Abascal, R., Rodríguez- Tembleque, L. (2010). A boundary element formulation
for wear modeling on 3D contact and rolling-contact problems. Elsevier,
Amsterdam.
[22] http://atlas.cc.itu.edu.tr/mecit/um508e/Liu-pdf. (28 September 2011).
[23] Sonief, A.A. (2003). Diktat Metode Elemen Hingga. Fakultas Teknik-Jurusan
Teknik Mesin Universitas Brawijaya, Malang.
[24] ABAQUS. (2004). V 6.5-1. Hibbit, Karlsson and Sorensen Inc., Providence, RI,
USA.
76
LAMPIRAN
Journal International berjudul A predictive modeling scheme for wear in
tribometers, oleh V.Hegadekatte, S. Kurzenhauser, N Huber dan O. Kraft.